Deuterium isotopic effect on 13C NMR chemical shifts of 1-(2-hydroxyphenyl)-3-aryl-1,3-propanediones: Hydrogen bond and substituent effects

The 'H and "C NMR spectra of 9-bydroxyphenalenone (1) and 9-hydroxy-2-methylpbnalenone (2) have been completely assigned. Primary and secondary deuterium isotope effects were determined in three solvents (chloroform, acetone and dimethyl sulphoxide), including the effect of temperature on t b second

17O chemical shifts were measured in 40 enamines activated in the b-position by CxO, COO, NO 2 , SO and groups. Data for the oxygen-containing series of o-hydroxyacyl aromatics are also included for com-SO 2 parison. Intramolecular hydrogen bonding in the enamines is discussed in terms of the accept

## Abstract Substituent effects on the ^13^C and ^1^H chemical shifts have been studied for derivatives of 3‐benzylidene‐2, 4‐pentanedione. A significant correlation has been found between chemical shifts of the __Z__ carbonyl group (C‐2) and Hammett constants, while no correlation has been found f

## Abstract A new class of compounds, the 2‐hydroxythioacetophenones, and related compounds have recently been synthesized. The hydrogen‐bond system has been characterized by NMR chemical shifts and deuterium isotope effects on these as well as by DFT calculations. Use of solid‐state ^13^C NMR has

A series of 3-and 4-X-cinnamoyl-1,3,4-thiadiazolium-2-phenylamine chlorides were prepared and fully characterized by spectroscopic techniques. The 13 C NMR chemical shifts of the a and b side-chain carbons were compared with those of the corresponding cinnamic acid precursors and more significant tr